Ethanol stimulates the in vivo axonal movement of neuropeptide dense‐core vesicles in Drosophila motor neurons

Proper neuronal function requires essential biological cargoes to be packaged within membranous vesicles and transported, intracellularly, through the extensive outgrowth of axonal and dendritic fibers. The precise spatiotemporal movement of these cargoes is vital for neuronal survival and, thus, is...

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Veröffentlicht in:Journal of neurochemistry 2018-02, Vol.144 (4), p.466-482
Hauptverfasser: Iacobucci, Gary J., Gunawardena, Shermali
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Sprache:eng
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Zusammenfassung:Proper neuronal function requires essential biological cargoes to be packaged within membranous vesicles and transported, intracellularly, through the extensive outgrowth of axonal and dendritic fibers. The precise spatiotemporal movement of these cargoes is vital for neuronal survival and, thus, is highly regulated. In this study we test how the axonal movement of a neuropeptide‐containing dense‐core vesicle (DCV) responds to alcohol stressors. We found that ethanol induces a strong anterograde bias in vesicle movement. Low doses of ethanol stimulate the anterograde movement of neuropeptide‐DCV while high doses inhibit bi‐directional movement. This process required the presence of functional kinesin‐1 motors as reduction in kinesin prevented the ethanol‐induced stimulation of the anterograde movement of neuropeptide‐DCV. Furthermore, expression of inactive glycogen synthase kinase 3 (GSK‐3β) also prevented ethanol‐induced stimulation of neuropeptide‐DCV movement, similar to pharmacological inhibition of GSK‐3β with lithium. Conversely, inhibition of PI3K/AKT signaling with wortmannin led to a partial prevention of ethanol‐stimulated transport of neuropeptide‐DCV. Taken together, we conclude that GSK‐3β signaling mediates the stimulatory effects of ethanol. Therefore, our study provides new insight into the physiological response of the axonal movement of neuropeptide‐DCV to exogenous stressors. Cover Image for this Issue: doi: 10.1111/jnc.14165. Ethanol is a widely abused drug, but detailed physiological and molecular effects of ethanol consumption are only recently being understood. For Drosophila, ethanol is a naturally occurring environmental chemical that elicits behavioral changes making them an ideal model system for studying the effects of ethanol. This study found that, in Drosophila, low doses of ethanol results in the stimulation of neuropeptide vesicle transport with a bias toward the anterograde direction. We propose that this effect is mediated via GSK‐3β‐mediated modulation of kinesin‐1 motor proteins. Thus, modulation of peptideric neurons may underlie the toxic and behavioral effects of ethanol and provide a novel target for therapeutics. Cover Image for this Issue: doi: 10.1111/jnc.14165.
ISSN:0022-3042
1471-4159
DOI:10.1111/jnc.14230